levels and ventilation requirements in the sports hall. As more people occupy the space, the demand for fresh air intake and exhaust also rises proportionally to maintain optimal indoor air quality and comfort levels. This finding highlights the importance of considering occupancy dynamics when designing and operating ventilation systems to ensure effective air exchange and ventilation performance in crowded environments. Following this, another study focused on exploring the relationship between the size of the room area and the corresponding exhaust flow rate as in Figure 3-19. By varying the dimensions of the space, researchers sought to identify optimal configurations that ensure efficient air exchange while accommodating different room sizes. This demonstrated a proportional expansion between the area of the sports hall and the corresponding exhaust flow rate. As the area of the room increased from 300 to 1800 square meters, the flow rate similarly increased from 270 L/s to 1620 L/s. 3.5. PARAMETRIC STUDY In a parametric study conducted on the ventilation system of the sports hall, several key factors were analyzed to understand their impact on the system's performance. The first study examined the effect of varying the number of people in the hall on the exhaust flow rate. This investigation aimed to determine how occupancy levels influence the ventilation requirements of the space. The first parametric study revealed a proportional relationship between the number of people in the hall and the exhaust flow rate. As the number of occupants increased from 50 to 150 individuals, the flow rate also increased from 500 L/s to 1500 L/s as shown in Figure 3-18. Flow Exshaust in the room exshuast air 1600 50 60 80 100 ייוון Number of people per room Flow Exshaust Figure 3-18 Variation of the Flow exhaust air in (L/s) as Function of Number of people in the room This observation underscores the direct correlation between occupancy levels and ventilation requirements in the sports hall. As more people occupy the space, the demand for fresh air intake and exhaust also rises proportionally

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Transcribed Image Text:

levels and ventilation requirements in the sports hall. As more people occupy the space, the demand for fresh air intake and exhaust also rises proportionally to maintain optimal indoor air quality and comfort levels. This finding highlights the importance of considering occupancy dynamics when designing and operating ventilation systems to ensure effective air exchange and ventilation performance in crowded environments. Following this, another study focused on exploring the relationship between the size of the room area and the corresponding exhaust flow rate as in Figure 3-19. By varying the dimensions of the space, researchers sought to identify optimal configurations that ensure efficient air exchange while accommodating different room sizes. This demonstrated a proportional expansion between the area of the sports hall and the corresponding exhaust flow rate. As the area of the room increased from 300 to 1800 square meters, the flow rate similarly increased from 270 L/s to 1620 L/s.

Transcribed Image Text:

3.5. PARAMETRIC STUDY In a parametric study conducted on the ventilation system of the sports hall, several key factors were analyzed to understand their impact on the system's performance. The first study examined the effect of varying the number of people in the hall on the exhaust flow rate. This investigation aimed to determine how occupancy levels influence the ventilation requirements of the space. The first parametric study revealed a proportional relationship between the number of people in the hall and the exhaust flow rate. As the number of occupants increased from 50 to 150 individuals, the flow rate also increased from 500 L/s to 1500 L/s as shown in Figure 3-18. Flow Exshaust in the room exshuast air 1600 50 60 80 100 ייוון Number of people per room Flow Exshaust Figure 3-18 Variation of the Flow exhaust air in (L/s) as Function of Number of people in the room This observation underscores the direct correlation between occupancy levels and ventilation requirements in the sports hall. As more people occupy the space, the demand for fresh air intake and exhaust also rises proportionally